Combined electrode and three-level high-power module thereof

1. A combined electrode, comprising a negative electrode, a first intermediate electrode, a positive electrode and a second intermediate electrode, the negative electrode comprising a main body portion of the negative electrode and a connection portion of the negative electrode, the first intermediate electrode comprising a main body portion of the first intermediate electrode and a connection portion of the first intermediate electrode in parallel to and directly facing the connection portion of the negative electrode, the positive electrode comprising a main body portion of the positive electrode and a connection portion of the positive electrode, and the second intermediate electrode comprising a main body portion of the second intermediate electrode and a connection portion of the second intermediate electrode in parallel to and directly facing the connection portion of the positive electrode, wherein the main body portion of the negative electrode angularly extends out from a side end of the connection portion of the negative electrode, and a leading portion of the negative electrode bends out of a top portion of the connection portion of the negative electrode; the main body portion of the first intermediate electrode in parallel to and directly facing the main body portion of the negative electrode angularly extends out from a side end of the connection portion of the first intermediate electrode, and a leading portion of the first intermediate electrode bends out of a top portion of the connection portion of the first intermediate electrode; the main body portion of the positive electrode angularly extends out from a side end of the connection portion of the positive electrode, and a leading portion of the positive electrode bends out of a top portion of the connection portion of the positive electrode; the main body portion of the second intermediate electrode in parallel to and directly facing the main body portion of the positive electrode angularly extends out from a side end of the connection portion of the second intermediate electrode, and a leading portion of the second intermediate electrode bends out of a top portion of the connection portion of the second intermediate electrode; and an insulating layer is arranged between the main body portion of the negative electrode and the main body portion of the first intermediate electrode, between the connection portion of the negative electrode and the connection portion of the first intermediate electrode, between the main body portion of the positive electrode and the main body portion of the second intermediate electrode, and between the connection portion of the positive electrode and the connection portion of the second intermediate electrode.

2. The combined electrode according to claim 1 , wherein the leading portion of the negative electrode is arranged on contrary to the leading portion of the first intermediate electrode, and the leading portion of the positive electrode is arranged on contrary to the leading portion of the second intermediate electrode.

3. The combined electrode according to claim 2 , wherein the main body portion of the positive electrode comprises a first main body portion of the positive electrode and a second main body portion of the positive electrode extending to opposite directions from two side ends of the connection portion of the positive electrode, and a bending direction of the leading portion of the positive electrode is consistent with an extending direction of the first main body portion of the positive electrode.

4. The combined electrode according to claim 2 , wherein the main body portion of the second intermediate electrode comprises a first main body portion of the second intermediate electrode and a second main body portion of the second intermediate electrode extending to opposite directions from two side ends of the connection portion of the second intermediate electrode, and a bending direction of the leading portion of the second intermediate electrode is consistent with an extending direction of the first main body portion of the second intermediate electrode.

5. A three-level high-power module, wherein the combined electrode according to claim 1 is used.

6. The three-level high-power module according to claim 5 , wherein further comprising an insulating substrate, wherein the insulating substrate comprises a lower half-bridge insulating substrate and an upper half-bridge insulating substrate, the lower half-bridge insulating substrate is provided with a connection point of the negative electrode and a connection point of the first intermediate electrode, the main body portion of the negative electrode is connected to the connection point of the negative electrode, the main body portion of the first intermediate electrode is connected to the connection point of the first intermediate electrode, the upper half-bridge insulating substrate is provided with a connection point of the positive electrode and a connection point of the second intermediate electrode, the main body portion of the positive electrode is connected to the connection point of the positive electrode, and the main body portion of the second intermediate electrode is connected to the connection point of the second intermediate electrode.

7. The three-level high-power module according to claim 6 , wherein the main body portion of the negative electrode is connected to a big arm of the negative electrode located above the lower half-bridge insulating substrate, a small arm of the negative electrode is led out from at least one of a left side and a right side of the big arm of the negative electrode, and the small arm of the negative electrode is connected to the connection point of the negative electrode.

8. The three-level high-power module according to claim 7 , wherein an insulating septum is arranged between the big arm of the negative electrode and the insulating substrate, and the insulating septum is provided with a hole for the small arm of the negative electrode to pass through.

9. The three-level high-power module according to claim 8 , wherein the small arm of the negative electrode comprises a first portion of the small arm of the negative electrode led by a coplane of the big arm of the negative electrode and a second portion of the small arm of the negative electrode led by the bending of the first portion of the small arm of the negative electrode, the second portion of the small arm of the negative electrode is connected to the connection point of the negative electrode, and a frame surrounding the second portion of the small arm of the negative electrode extends out from the hole in the insulating septum towards a direction of the insulating substrate.

10. The three-level high-power module according to claim 6 , wherein the main body portion of the first intermediate electrode is connected to a big arm of the first intermediate electrode located above the lower half-bridge insulating substrate, a small arm of the first intermediate electrode is led out from at least one of a left side and a right side of the big arm of the first intermediate electrode, and the small arm of the first intermediate electrode is connected to the connection point of the first intermediate electrode.

11. The three-level high-power module according to claim 10 , wherein an insulating septum is arranged between the big arm of the first intermediate electrode and the insulating substrate, and the insulating septum is provided with a hole for the small arm of the first intermediate electrode to pass through.

12. The three-level high-power module according to claim 11 , wherein the small atm of the first intermediate electrode comprises a first portion of the small arm of the first intermediate electrode led by a coplane of the big arm of the first intermediate electrode and a second portion of the small arm of the first intermediate electrode led by the bending of the first portion of the small arm of the first intermediate electrode, the second portion of the small arm of the first intermediate electrode is connected to the connection point of the first intermediate electrode, and a frame surrounding the second portion of the small arm of the first intermediate electrode extends out from the hole in the insulating septum towards a direction of the insulating substrate.

13. The three-level high-power module according to claim 6 , wherein the main body portion of the negative electrode is connected to the big arm of the negative electrode located above the lower half-bridge insulating substrate, a small arm of the negative electrode is led out from at least one of a left side and a right side of the big arm of the negative electrode, and the small arm of the negative electrode is connected to the connection point of the negative electrode; the main body portion of the first intermediate electrode is connected to a big arm of the first intermediate electrode located above the lower half-bridge insulating substrate, a small arm of the first intermediate electrode is led out from at least one of a left side and a right side of the big arm of the first intermediate electrode, and the small arm of the first intermediate electrode is connected to the connection point of the first intermediate electrode; and the big arm of the negative electrode is arranged in parallel to and directly facing the big arm of the first intermediate electrode, and an insulating layer is arranged between the big arm of the negative electrode and the big arm of the first intermediate electrode.

14. The three-level high-power module according to claim 6 , wherein the main body portion of the positive electrode is connected to a big a in of the positive electrode located above the upper half-bridge insulating substrate, a small arm of the positive electrode is led out from at least one of a left side and a right side of the big arm of the positive electrode, and the small arm of the positive electrode is connected to the connection point of the positive electrode.

15. The three-level high-power module according to claim 14 , wherein an insulating septum is arranged between the big arm of the positive electrode and the insulating substrate, and the insulating septum is provided with a hole for the small arm of the positive electrode to pass through.

16. The three-level high-power module according to claim 15 , wherein the small arm of the positive electrode comprises a first portion of the small arm of the positive electrode led by a coplane of the big arm of the positive electrode and a second portion of the small arm of the positive electrode led by the bending of the first portion of the small arm of the positive electrode, the second portion of the small arm of the positive electrode is connected to the connection point of the positive electrode, and a frame surrounding the second portion of the small arm of the positive electrode extends out from the hole in the insulating septum towards a direction of the insulating substrate.

17. The three-level high-power module according to claim 6 , wherein the main body portion of the second intermediate electrode is connected to a big arm of the second intermediate electrode located above the upper half-bridge insulating substrate, a small arm of the second intermediate electrode is led out from at least one of a left side and a right side of the big arm of the second intermediate electrode, and the small arm of the second intermediate electrode is connected to the connection point of the second intermediate electrode.

18. The three-level high-power module according to claim 17 , wherein an insulating septum is arranged between the big arm of the second intermediate electrode and the insulating substrate, and the insulating septum is provided with a hole for the small arm of the second intermediate electrode to pass through.

19. The three-level high-power module according to claim 18 , wherein the small arm of the second intermediate electrode comprises a first portion of the small arm of the second intermediate electrode led by a coplane of the big arm of the second intermediate electrode and a second portion of the small arm of the second intermediate electrode led by the bending of the first portion of the small arm of the second intermediate electrode, the second portion of the small arm of the second intermediate electrode is connected to the connection point of the second intermediate electrode, and a frame surrounding the second portion of the small arm of the second intermediate electrode extends out from the hole in the insulating septum towards a direction of the insulating substrate.

20. The three-level high-power module according to claim 6 , wherein the main body portion of the positive electrode is connected to the big arm of the positive electrode located above the upper half-bridge insulating substrate, a small arm of the positive electrode is led out from at least one of a left side and a right side of the big arm of the positive electrode, and the small arm of the positive electrode is connected to the connection point of the positive electrode; the main body portion of the second intermediate electrode is connected to a big arm of the second intermediate electrode located above the upper half-bridge insulating substrate, a small arm of the second intermediate electrode is led out from at least one of a left side and a right side of the big arm of the second intermediate electrode, and the small arm of the second intermediate electrode is connected to the connection point of the second intermediate electrode; and the big arm of the positive electrode is arranged in parallel to and directly facing the big arm of the second intermediate electrode, and an insulating layer is arranged between the big arm of the positive electrode and the big arm of the second intermediate electrode.